Successfully held in Guangzhou, Guilin and Shanghai, China in the past eight years, ICAEER is an annual conference which explores the development and implications in the related fields of energy and environment research with an objective to present the novel and fundamental advancements.

The 2025 10th International Conference on Advances in Energy and Environment Research (ICAEER 2025) [第十届能源与环境研究进展国际学术会议] will be held on September 26-28, 2025 in Shanghai, China.

ICAEER 2025 will serve as an international forum for the presentation and exchange of technological advances and research results in the broad fields of Environment Research. The conference will bring together leading researchers, engineers and scientists in the domain of interest from around the world. We warmly welcome prospective authors to submit your research papers to this conference, and share your latest research results and valuable experiences with other top-scientists, engineers and scholars from all over the world.

PUBLICATION

Papers submitted to ICAEER 2025 will be reviewed by two or three expert reviewers from the conference committees. After a careful reviewing process, all accepted and registered papers will be published in the Journal of Physics: Conference Series (ISSN:1742-6596), which will be submitted to EI Compendex, Scopus for indexing.

CALL FOR PAPERS

Topics of interests are in the broad areas of advances in energy and environment research, including but not limited to:

· Energy Research

Solar energy materials and devices
Solar Cells
Photon management technologies for photovoltaics
Quantum effects in photocatalytic energy conversion
Energy storage materials and device
Dynamics and optimization of wind energy systems
Physicochemical mechanisms of hydrogen storage
Thermodynamic modeling of geothermal resources
Thermodynamics of biomass energy conversion
Hydrodynamic simulations for marine energy
Superconducting technologies for energy transmission
Smart grids and energy systems
Energy extraction from supercritical fluids
Piezoelectric/triboelectric effects in energy harvesting
Radiation effects in nuclear energy materials
Physics of shielding materials for nuclear waste
Coupled climate-energy system models
Plasma-assisted fuel synthesis technologies
Extreme manufacturing for energy equipment

· Environmental Research

Physical mechanisms of atmospheric pollutant transport
Radiation monitoring technologies in environment
Physicochemical migration of microplastics
Field-enhanced technologies for soil remediation
Adsorption physics of carbon capture materials
Optical properties and climate effects of aerosols
Transport models for groundwater contamination
Wave theory of environmental noise propagation
Nonlinear dynamics in ecosystems
Photocatalytic mechanisms for pollutant degradation
Physical models for extreme weather prediction
Numerical simulations of ocean circulation
Molecular simulations of pollutant interfaces
Failure physics of environmental materials
Spectroscopic detection of greenhouse gases
Vibration energy harvesting in environmental systems
Thermodynamic analysis of urban heat islands
Physical detection methods for micro/nano plastics
Physics of atmospheric turbulence structures
Electrokinetic remediation of contaminated soils
LiDAR applications in atmospheric monitoring
Transport mechanisms in water treatment membranes